Unconventional metallic conduction in two-dimensional Hubbard-Wigner lattices
arXiv:0905.0707 · doi:10.1103/PhysRevB.80.165110
Abstract
The interplay between long-range and local Coulomb repulsion in strongly interacting electron systems is explored through a two-dimensional Hubbard-Wigner model. An unconventional metallic state is found in which collective low-energy excitations characteristic of the Wigner crystal induce a flow of electrical current despite the absence of one-electron spectral weight at the Fermi surface. Photoemission experiments on certain quarter-filled layered molecular crystals should observe a gap in the excitation spectrum whereas optical spectroscopy should find a finite Drude weight indicating metallic behavior.
10 pages, accepted for publication in PRB